How do you find the area of one petal of r=cos5theta?

2 Answers
Rhys
Oct 28, 2017

Ans = pi/20

Explanation:

graph{y=cos(5x) [-2.075, 2.076, -1.008, 1.069]}

We first consider the graph y = cos(5x), and considering the roots, this is where each individual petal start and end in r = cos(5theta)

Roots; cos(5theta) = 0
5theta = { -pi/2, pi/2 }
theta = { -pi/10, pi/10 }

Hence to find the area of one petal, we can consider the petal that lies between theta = -pi/10 and theta = pi/10 .

Now we can use
A =1/2intr^2d theta

r = cos(5theta)
letting z = cis(theta), we can use De Moivres theorem
z + 1/z = 2cos(theta)
(z^5 + 1/z^5)^2 = 4cos^2(5theta)
z^10 + 1/z^10 + 2 = 4cos^2(5theta)
Hence cos^2 (5theta) = 1/4 (cos(10theta) + 2 )

(or via considering Cos(2theta) = 2cos^2(theta) - 1)

Hence our integral becomes;

1/8int_(-pi/10)^(pi/10)cos(10theta)+2d theta

Hence via evaluating this simple integral;

Area = (1/8)((2pi)/5) = pi/20

Steve M
Oct 28, 2017

pi/20

Explanation:

The polar curve is:
Steve M using AutoGraph

We calculate area in polar coordinates using :

A = 1/2 \ int_alpha^beta \ r^2 \ d theta

In order to calculate the area bounded by a single petal we would need to calculate the correct bounding angles, or we can calculate the entire area as we sweep through pi radians and divide by 5, which is the method used.

Thus, the enclosed area is:

A = 1/2 \ int_(0)^(pi) \ (cos5theta)^2 \ d theta

Note that the entire area is swept out over the partial region theta in [0,pi] as we have a odd number of petals, whereas as we would use theta in [0,2pi] if we had an even number of petals. This confusing result is explained in this Scratchpad explanation

Now, Using the identity:

cos 2A -= 2cos^2A -1

This becomes:

A = 1/2 \ int_(0)^(pi) \ (1+cos10theta)/2 \ d theta
\ \ \ = 1/4 \ int_(0)^(pi) \ (1+cos10theta) \ d theta
\ \ \ = 1/4 \ [theta + (sin10theta)/10]_0^(pi)
\ \ \ = 1/4 \ { (pi+(sin10pi)/10) - (0+sin0) }
\ \ \ = 1/4 \ (pi+0 - 0)
\ \ \ = pi/4

This is the area of all five petals, so the area of a single petal is

A_1 = A/5 = pi/20

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